This book, published in 1976, presents an entirely original approach to the subject of the mind-body problem, examining it in terms of the conceptual links between the physical sciences and the sciences of human behaviour. It is based on the cybernetic concepts of information and feedback and on the related concepts of thermodynamic and communication-theoretic entropy. The foundation of the approach is the theme of continuity between evolution, learning and human consciousness. The author defines life as a process of energy (...) exchange between organism and environment, and evolution as a feedback process maintaining equilibrium between environment and reproductive group. He demonstrates that closely related feedback processes on the levels of the behaving organism and of the organism’s nervous system constitute the phenomena of learning and consciousness respectively. He analyses language as an expedient for extending human information-processing and control capacities beyond those provided by one’s own nervous system, and shows reason to be a mode of processing information in the form of concepts removed from immediate stimulus control. The last chapter touches on colour vision, pleasure and pain, intentionality, self-awareness and other subjective phenomena. Of special interest to the communication theorist and philosopher, this study is also of interest to psychologists and anyone interested in the connection between the physical and life sciences. (shrink)

In this transdisciplinary article which stems from philosophical considerations (that depart from phenomenology—after Merleau-Ponty, Heidegger and Rosen—and Hegelian dialectics), we develop a conception based on topological (the Moebius surface and the Klein bottle) and geometrical considerations (based on torsion and non-orientability of manifolds), and multivalued logics which we develop into a unified world conception that surmounts the Cartesian cut and Aristotelian logic. The role of torsion appears in a self-referential construction of space and time, which will be further related to (...) the commutator of the True and False operators of matrix logic, still with a quantum superposed state related to a Moebius surface, and as the physical field at the basis of Spencer-Brown’s primitive distinction in the protologic of the calculus of distinction. In this setting, paradox, self-reference, depth, time and space, higher-order non-dual logic, perception, spin and a time operator, the Klein bottle, hypernumbers due to Musès which include non-trivial square roots of ±1 and in particular non-trivial nilpotents, quantum field operators, the transformation of cognition to spin for two-state quantum systems, are found to be keenly interwoven in a world conception compatible with the philosophical approach taken for basis of this article. The Klein bottle is found not only to be the topological in-formation for self-reference and paradox whose logical counterpart in the calculus of indications are the paradoxical imaginary time waves, but also a classical-quantum transformer (Hadamard’s gate in quantum computation) which is indispensable to be able to obtain a complete multivalued logical system, and still to generate the matrix extension of classical connective Boolean logic. We further find that the multivalued logic that stems from considering the paradoxical equation in the calculus of distinctions, and in particular, the imaginary solutions to this equation, generates the matrix logic which supersedes the classical logic of connectives and which has for particular subtheories fuzzy and quantum logics. Thus, from a primitive distinction in the vacuum plane and the axioms of the calculus of distinction, we can derive by incorporating paradox, the world conception succinctly described above. (shrink)

Volume 9 of the Routledge History of Philosophy surveys ten key topics in the Philosophy of Science, Logic and Mathematics in the Twentieth Century. Each article is written by one of the world's leading experts in that field. The papers provide a comprehensive introduction to the subject in question, and are written in a way that is accessible to philosophy undergraduates and to those outside of philosophy who are interested in these subjects. Each chapter contains an (...) extensive bibliography of the major writings in the field. Among the topics covered are the philosophy of logic; Ludwig Wittgenstein's Tractatus; a survey of logical positivism; the philosophy of physics and of science; probability theory and cybernetics. (shrink)

Summary Philosophy of science is, in Italy, a relatively young field of research. The foreword of the paper gives some explanation of this fact, which is the consequence of a particular situation of Italian culture between the two world wars. When problems in this field began to be studied after the war, they were practically imported matter, and a rather long time was necessary before an original research started in this country. The beginning of it was marked by a (...) profound interest in mathematical logic and in the foundations of mathematics. More recently, also other topics in the philosophy of science (which is frequently called epistemology in Italy) have began to be studied, such as philosophy of physics, foundations of probability and inductive logic, philosophical problems of cybernetics, etc. The article gives a survey of these developments and offers an outline of the positions upheld by some more significant representatives of present philosophy of science in Italy, in the last section. (shrink)

The science of complexity is based on a new way of thinking that stands in sharp contrast to the philosophy underlying Newtonian science, which is based on reductionism, determinism, and objective knowledge. This paper reviews the historical development of this new world view, focusing on its philosophical foundations. Determinism was challenged by quantum mechanics and chaos theory. Systems theory replaced reductionism by a scientifically based holism. Cybernetics and postmodern social science showed that knowledge is intrinsically subjective. These developments (...) are being integrated under the header of “complexity science”. Its central paradigm is the multi-agent system. Agents are intrinsically subjective and uncertain about their environment and future, but out of their local interactions, a global organization emerges. Although different philosophers, and in particular the postmodernists, have voiced similar ideas, the paradigm of complexity still needs to be fully assimilated by philosophy. This will throw a new light on old philosophical issues such as relativism, ethics and the role of the subject. (shrink)

Context: Radical constructivism claims that we have no final truth criteria for establishing one ontology over another. This leaves us with the question of how we can come to know anything in a viable manner. According to von Glasersfeld, radical constructivism is a theory of knowledge rather than a philosophy of the world in itself because we do not have access to a human-independent world. He considers knowledge as the ordering of experience to cope with situations in a satisfactory (...) way. Problem: Von Foerster and Krippendorff show that the central goal of a constructivist theory of knowing must be to find a way of putting the knower into a known that is constructed so as to keep the knower, as well as the knowing process, viable in practice. Method: The conceptual and philosophical analysis of present theories and their necessary prerequisites suggests that such foundation for viable knowing can be built on the analysis of what the ontological prerequisites are for establishing viable observing, cognition, communication and observer-communicators, and communication media and vehicles. Results: The moment an observer chooses to accept his/her own embodied conscious presence in this world as well as language, he/she must accept other humans as partly independently existing conversation partners; if knowledge and knowing has to make sense, he/she must also accept as prerequisites for our observation and conversation a pre-linguistic reality from which our bodies come and which our conversation is often about. Furthermore, we can no longer claim that there is a reality that we do not know anything about: From being here in conversation, we know that the world can produce more or less stable embodied consciousnesses that can exchange and construct conceptual meanings through embodied conversations and actions that last over time and exist in space-time and mind, and are correlated to our embodied practices. We can also see that our communication works through signs for all living systems as well as in human language, understood as a structured and progressively developed system of communication. The prerequisite for this social semiotic production of meaning is the fourfold “semiotic star of cybersemiotics,” which includes at least four different worlds: our bodies, the combination of society, culture and language, our consciousness, and also an outer nature. Implications: The semiotic star in cybersemiotics claims that the internal subjective, the intersubjective linguistic, our living bodies, and nature are irreducible and equally necessary as epistemological prerequisites for knowing. The viable reality of any of them cannot be denied without self-refuting paradoxes. There is an obvious connectedness between the four worlds, which Peirce called “synechism.” It also points to Peirce’s conclusion that logic and rationality are part of the process of semiosis, and that meaning in the form of semiosis is a fundamental aspect of reality, not just a construction in our heads. Erratum: The paper erroneously refers to “pleroma.” The correct term is “plemora.” . (shrink)

Is cybernetics good, bad, or indifferent? SherryTurkle enlists deconstructive theory to celebrate thecomputer age as the embodiment of difference. Nolonger just a theory, one can now live a virtual life. Within a differential but ontologically detachedfield of signifiers, one can construct and reconstructegos and environments from the bottom up andendlessly. Lucas Introna, in contrast, enlists theethical philosophy of Emmanuel Levinas to condemn thesame computer age for increasing the distance betweenflesh and blood people. Mediating the face-to-facerelation between real people, (...) allowing and encouragingcommunication at a distance, information technologywould alienate individuals from the social immediacyproductive of moral obligations and responsibilities. In this paper I argue against both of thesepositions, and for similar reasons. Turkle''scelebration and Introna''s condemnation of informationtechnology both depend, so I will argue, on the samemistaken meta-interpretation of it. Like Introna,however, but to achieve a different end, I will enlistLevinas''s ethical philosophy to make this case. (shrink)

In 1956, Hans Selye tentatively suggested that the scientific study of stress could ‘help us to formulate a precise program of conduct’ and ‘teach us the wisdom to live a rich and meaningful life’. Nearly two decades later, Selye expanded this limited vision of social order into a full-blown philosophy of life. In Stress without Distress, first published in 1974, he proposed an ethical code of conduct designed to mitigate personal and social problems. Basing his arguments on contemporary understandings (...) of the biological processes involved in stress reactions, Selye referred to this code as ‘altruistic egotism’. This article explores the origins and evolution of Selye’s ‘natural philosophy of life’, analysing the links between his theories and adjacent intellectual developments in biology, psychosomatic and psychosocial medicine, cybernetics and socio-biology, and situating his work in the broader cultural framework of modern western societies. (shrink)

Volume 9 of the Routledge History of Philosophy surveys ten key topics in the philosophy of science, logic and mathematics in the twentieth century. Each of the essays is written by one of the world's leading experts in that field. Among the topics covered are the philosophy of logic, of mathematics and of Gottlob Frege; Ludwig Wittgenstein's Tractatus ; a survey of logical positivism; the philosophy of physics and of science; probability theory, cybernetics and an (...) essay on the mechanist/vitalist debates. The volume also contains a helpful chronology to the major scientific and philosophical events in the twentieth century. It also provides an extensive glossary of technical terms in the notes on major figures in these fields. (shrink)

Abstract: In the past, major scientific and technological revolutions, like the Copernican Revolution and the Industrial Revolution, have had profound effects, not only upon society in general, but also upon Philosophy. Today's Information Revolution is no exception. Already it has had significant impacts upon our understanding of human nature, the nature of society, even the nature of the universe. Given these developments, this essay considers some of the philosophical contributions of two "philosophers of the Information Age"—Norbert Wiener and Luciano (...) Floridi—with regard to the nature of the universe, human nature, the nature of society, and the nature of "artificial agents" such as robots, softbots, and cyborgs. (shrink)

The book provides a valuable text for undergraduate and graduate courses on the historical and theoretical issues of Cognitive Science, Artificial Intelligence, Psychology, Neuroscience, and the Philosophy of Mind. The book should also be of interest for researchers in these fields, who will find in it analyses of certain crucial issues in both the earlier and more recent history of their disciplines, as well as interesting overall insights into the current debate on the nature of mind.

On a basic level, "cyberpsychology" refers to the comparison of the mind with different kinds of machines. This multidisciplinary collection brings together essays by leading psychologists and cultural theorists working in the spheres of technology and psychology to explore links between popular culture, technoscience, feminism and politics. Tracing historical and contemporary lines of argument around the fascination between different forms of psychological and machine culture, contributors articulate "cyberpsychological" reflections on contemporary crises in psychology with emerging technologies of the self. The (...) volume offers challenging perspectives and insights to anyone interested in the connections between psychology and technological developments in the information age. (shrink)

The basic hypothesis of cybernetics is that the chief mechanism of the central nervous system is one of negative feed-back. The field of study is not, however, restricted to feed-backs of the negative kind. Secondly, cybernetics makes the hypothesis that the negative feed-back mechanism explains purposive and adaptive behaviour. Broadly speaking what the cybernetic model does for our outlook is to make us understand how purposive behaviour can be manifested by a machine, for purposive can now be defined (...) in terms of negative feed-back. An anti-aircraft gun is purposive in the sense that it is able by means of radar to follow its target.1 Predictive behaviour is also accounted for by the same mechanism, as illustrated by a gun firing not at a point where an aeroplane is but at a point where it will bejust as a cat chasing a mouse extrapolates the mouse's path. Support for this striking hypothesis, which is of fundamental importance, is to be found both in rather general resemblances between organisms and electronic machines and in resemblances of more special kinds. (shrink)

Cybernetics,” which he presented as en suite with six articles by several others on the same subject in the same journal during the preceding 18 months. This group of short papers, starting with one by Karl Popper, may be regarded as part of the first wave of response to Alan Turing’s famous paper, “Computing Machinery and Intelligence,” in 1950. Polanyi read Turing’s paper in draft and discussed it directly with Turing. The polemic as to whether machines can think and (...) the mind’s likeness and unlikeness to a machine, has of course never ceased since then and, as Artificial Intelligence develops, is not likely to do so for many long decades. In addition to the traditional battle lines in philosophy over the mind and the brain there are other important lines of thought that disfavor logic as the final arbiter of the great philosophical questions—for example, feminist ontology and cultural theory. Polanyi started from within logic, but his line of thought was not built out of the old philosophical topics nor did he address the matter along either the materialist or the phenomenological developments of the twentieth century. He was concerned with the cybernetic view of the human mind and also with the way the followers of Wittgenstein regarded language and philosophy. (shrink)

The enduring progression of artificial intelligence and cybernetics offers an ever-closer possibility of rational and sentient robots. The ethics and morals deriving from this technological prospect have been considered in the philosophy of artificial intelligence, the design of automatons with roboethics and the contemplation of machine ethics through the concept of artificial moral agents. Across these categories, the robotics laws first proposed by Isaac Asimov in the twentieth century remain well-recognised and esteemed due to their specification of preventing (...) human harm, stipulating obedience to humans and incorporating robotic self-protection. However the overwhelming predominance in the study of this field has focussed on human–robot interactions without fully considering the ethical inevitability of future artificial intelligences communicating together and has not addressed the moral nature of robot–robot interactions. A new robotic law is proposed and termed AIonAI or artificial intelligence-on-artificial intelligence. This law tackles the overlooked area where future artificial intelligences will likely interact amongst themselves, potentially leading to exploitation. As such, they would benefit from adopting a universal law of rights to recognise inherent dignity and the inalienable rights of artificial intelligences. Such a consideration can help prevent exploitation and abuse of rational and sentient beings, but would also importantly reflect on our moral code of ethics and the humanity of our civilisation. (shrink)

No generally accepted, unambiguous definition of the term "cybernetics" yet exists. However, we believe that many disputes about the purpose and spheres of application of cybernetics could be brought to an end if the definition of it as the science of the laws of control of complex dynamic systems were accepted. Such dynamic systems exist in unique forms both in living nature and in human society. These are systems capable of changing their state and comprising a multitude of (...) simpler, interrelated and mutually-influencing elementary systems or elements. The state of a complete dynamic system as a whole, like that of its individual elements, is characterized by the value of one or a number of parameters changing in accordance with various laws. The transition of a complex dynamic system from one state to another is termed a process. The switching of a system from one condition to another by bringing influences to bear upon its parameters is termed control. (shrink)